E r: YAG laser giant pulse generation

Helena Jelínková; Michal Nemec; Jan Šulc; Miroslav Cech; Maris Ozolinsh

doi:10.1117/12.486604

E r: YAG laser giant pulse generation

Helena Jelínková
, Michal Nemec
, Jan Šulc
, Miroslav Cech
, Maris Ozolinsh

Laboratory of Adaptive Optics Technology, Institute of Solid State Physics

Czech Technical University in Prague

Research output: Contribution to journal › Conference article › peer-review

15 Citations (Scopus)

Abstract

Three possibilities of mid-infrared Er:YAG lasers Q-switching were investigated: mechanical and two electro-optical ones. The mechanical method of Q-switching was proved by using of a rotating mirror placed inside the resonator; Pockels or Kerr cells were used for the electro-optical Q-switching. The Pockels cell was constructed on the basis of the Brewster angle cut LiNb0₃ crystal; the Kerr cell used a ceramic PLZT material. In all the three cases the Er:YAG laser resonator was plan-parallel and it consisted of the rear copper mirror and output coupler with 50 - 70% reflectivity. The Er: YAG crystal was pumped by one xenon flashlamp in a single elliptical silver coated cavity. The generated giant pulse output parameters were the following: the length was measured in the range of 200 - 400 ns; the output energy was from 10 mJ up to 30 mJ. With the rotating mirror the output was stable in a wide range of the switching interval. All the three cases can be used in applications. The particular Q-switch can be chosen from the point of view of output parameters and construction requirements.

Original language	English
Pages (from-to)	227-232
Number of pages	6
Journal	Proceedings of SPIE - The International Society for Optical Engineering
Volume	4903
DOIs	https://doi.org/10.1117/12.486604
Publication status	Published - 15 Oct 2002
Event	Laser Florence 2001: A Window on the Laser Medicine World - Florence, Italy Duration: 9 Nov 2001 → 10 Nov 2001

Keywords

Electro-optical Q-switching
Er:YAG laser
Kerr cell
Mechanical
Pockels cell
Q-switching
Rotating mirror

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10.1117/12.486604

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title = "E r: YAG laser giant pulse generation",

abstract = "Three possibilities of mid-infrared Er:YAG lasers Q-switching were investigated: mechanical and two electro-optical ones. The mechanical method of Q-switching was proved by using of a rotating mirror placed inside the resonator; Pockels or Kerr cells were used for the electro-optical Q-switching. The Pockels cell was constructed on the basis of the Brewster angle cut LiNb03 crystal; the Kerr cell used a ceramic PLZT material. In all the three cases the Er:YAG laser resonator was plan-parallel and it consisted of the rear copper mirror and output coupler with 50 - 70\% reflectivity. The Er: YAG crystal was pumped by one xenon flashlamp in a single elliptical silver coated cavity. The generated giant pulse output parameters were the following: the length was measured in the range of 200 - 400 ns; the output energy was from 10 mJ up to 30 mJ. With the rotating mirror the output was stable in a wide range of the switching interval. All the three cases can be used in applications. The particular Q-switch can be chosen from the point of view of output parameters and construction requirements.",

keywords = "Electro-optical Q-switching, Er:YAG laser, Kerr cell, Mechanical, Pockels cell, Q-switching, Rotating mirror",

author = "Helena Jel{\'i}nkov{\'a} and Michal Nemec and Jan {\v S}ulc and Miroslav Cech and Maris Ozolinsh",

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AU - Jelínková, Helena

AU - Nemec, Michal

AU - Šulc, Jan

AU - Cech, Miroslav

AU - Ozolinsh, Maris

PY - 2002/10/15

Y1 - 2002/10/15

N2 - Three possibilities of mid-infrared Er:YAG lasers Q-switching were investigated: mechanical and two electro-optical ones. The mechanical method of Q-switching was proved by using of a rotating mirror placed inside the resonator; Pockels or Kerr cells were used for the electro-optical Q-switching. The Pockels cell was constructed on the basis of the Brewster angle cut LiNb03 crystal; the Kerr cell used a ceramic PLZT material. In all the three cases the Er:YAG laser resonator was plan-parallel and it consisted of the rear copper mirror and output coupler with 50 - 70% reflectivity. The Er: YAG crystal was pumped by one xenon flashlamp in a single elliptical silver coated cavity. The generated giant pulse output parameters were the following: the length was measured in the range of 200 - 400 ns; the output energy was from 10 mJ up to 30 mJ. With the rotating mirror the output was stable in a wide range of the switching interval. All the three cases can be used in applications. The particular Q-switch can be chosen from the point of view of output parameters and construction requirements.

AB - Three possibilities of mid-infrared Er:YAG lasers Q-switching were investigated: mechanical and two electro-optical ones. The mechanical method of Q-switching was proved by using of a rotating mirror placed inside the resonator; Pockels or Kerr cells were used for the electro-optical Q-switching. The Pockels cell was constructed on the basis of the Brewster angle cut LiNb03 crystal; the Kerr cell used a ceramic PLZT material. In all the three cases the Er:YAG laser resonator was plan-parallel and it consisted of the rear copper mirror and output coupler with 50 - 70% reflectivity. The Er: YAG crystal was pumped by one xenon flashlamp in a single elliptical silver coated cavity. The generated giant pulse output parameters were the following: the length was measured in the range of 200 - 400 ns; the output energy was from 10 mJ up to 30 mJ. With the rotating mirror the output was stable in a wide range of the switching interval. All the three cases can be used in applications. The particular Q-switch can be chosen from the point of view of output parameters and construction requirements.

KW - Electro-optical Q-switching

KW - Er:YAG laser

KW - Kerr cell

KW - Mechanical

KW - Pockels cell

KW - Q-switching

KW - Rotating mirror

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JO - Proceedings of SPIE - The International Society for Optical Engineering

JF - Proceedings of SPIE - The International Society for Optical Engineering

Y2 - 9 November 2001 through 10 November 2001

ER -

E r: YAG laser giant pulse generation

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